JP3810720B2 - Thin slide switch mechanism - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a thin slide switch mechanism capable of operating a slide switch mounted on a substrate surface on the back side of the substrate opposite to the switch mounting surface.
[0002]
[Prior art]
In a self-propelled toy such as a remote control tank, the operation unit of the power slide switch is often provided on the rear side of the chassis so as not to impair the appearance. On the other hand, the electric circuit board is generally disposed horizontally along the bottom plate portion in the chassis.
[0003]
When the electric circuit board is arranged along the bottom plate in the chassis, in order to provide the operation part of the power slide switch on the back side of the chassis, the slide switch is mounted downward on the back side of the electric circuit board. There is a need.
[0004]
Otherwise, the slide switch is separated from the electric circuit board and attached to the bottom plate of the chassis independently, or the slide switch is mounted on the surface of the electric circuit board and the slide operation part is operated on the back side of the chassis. In order to do so, it is necessary to devise a combination of a key top and the slide switch. As one of such key tops, a device that operates the operation portion of the slide switch at a position away from the switch is described in Patent Document 1, for example.
[0005]
[Patent Document 1]
JP-A-11-25803 [0006]
[Problems to be solved by the invention]
However, the slide switch is thicker than an integrated circuit chip that is another mounting component. On the other hand, the gap between the chassis and the electric circuit board is made as narrow as possible due to design restrictions. For this reason, it is usually difficult to mount the slide switch downward on the back surface of the electric circuit board due to space restrictions. Even if the design is changed, the electric circuit board is separated from the bottom plate of the chassis, The increase in height becomes a problem.
[0007]
When the slide switch is separated from the electric circuit board and independently attached to the bottom plate portion of the chassis, there is a problem that the number of assembly steps increases.
[0008]
The key top described in Patent Document 1 can operate the slide switch only from the same direction as the operation side. For this reason, the slide switch mounted on the surface of the substrate cannot be applied to an application in which the slide switch is operated on the back side of the substrate opposite to the switch mounting surface.
[0009]
The present invention was devised in view of such circumstances, and its purpose is to allow a slide switch mounted on the substrate surface to be operated on the back side of the substrate opposite to the switch mounting surface, and to avoid an increase in thickness. An object of the present invention is to provide a thin slide switch mechanism.
[0010]
[Means for Solving the Problems]
In order to achieve the above object, a thin slide switch mechanism according to the present invention has an operation portion that protrudes from the surface so as to be slidable, and is mounted on an edge of the surface of the substrate so that the operation portion faces upward. A thin slide switch mechanism including a slide switch and a key top for enabling a slide operation of the operation portion of the slide switch on the back side of the substrate, wherein the key top is located on the side of the slide switch. A substantially U-shaped or C-shaped component that is movably disposed in the same direction as the operation direction, and projects along the surface of the slide switch and engages with the operation portion of the slide switch. It has a projecting part and a projecting part on the back side that projects along the back side of the substrate, and the projecting part on the front side and the back side sandwiches the substrate and the slide switch. It has become the jar.
[0011]
In the thin slide switch mechanism according to the present invention, the slide operation portion on the front side of the slide switch is operated from the back side of the substrate via the key top. Although the back-side overhanging part is located on the back side of the substrate, the back-side overhanging part does not need to be as thick as the slide switch. For this reason, even when a sufficient space cannot be secured on the back side of the substrate, the switch mechanism can be incorporated. In addition, the key top has a U-shaped structure or a C-shaped structure in which the slide switch is sandwiched from the front and back with the substrate on the front side and the back side. Is good.
[0012]
Wherein the slide switch is mounted on the edge portion of the surface of the substrate, overhang length of the projecting portion of the key top is reduced, the rattling is smaller suppressed.
[0013]
It is preferable that a concave portion into which the operation portion of the slide switch is fitted is provided on the distal end surface of the protruding portion on the surface side of the key top. With this configuration, the key top can be easily assembled to the slide switch.
[0014]
The thin slide switch mechanism has a chassis on which the board is mounted with a gap, and a protruding portion on the back side of the key top is guided movably between the board and the chassis. The plate body is preferably provided with an operation portion that penetrates the chassis and protrudes on the back surface side so as to be slidable . According to this configuration, the protruding portion on the back surface side is sandwiched and supported between the substrate and the chassis. For this reason, the backlash of a key top is suppressed smaller.
[0015]
Here, in the key top, a connecting portion that connects the protruding portion on the front surface side and the protruding portion on the rear surface side is guided movably between the inner side surface of the chassis, the side surface of the slide switch, and the side end surface of the substrate. The configuration is preferable. According to this configuration, the connecting portion is sandwiched and supported between the inner side surface of the chassis, the side surface of the switch, and the side end surface of the board . For this reason, the backlash of a key top is suppressed smaller.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. 1 is a perspective view of a remote control tank using a thin slide switch mechanism according to an embodiment of the present invention, FIG. 2 is another perspective view of the remote control tank, FIG. 3 is still another perspective view of the remote control tank, and FIG. Is a further perspective view of the remote control tank, FIG. 5 is a longitudinal side view of the remote control tank, FIG. 6 is a perspective view of a thin slide switch mechanism used in the remote control tank, and FIG. FIG. 8 is a vertical side view of the thin slide switch mechanism, and FIG. 9 is a vertical side view of the thin slide switch mechanism showing a state in which the key top is removed.
[0017]
A thin slide switch mechanism according to an embodiment of the present invention is used as a power switch in a remote control tank which is a kind of remote control type self-propelled toy. This remote control tank plays a battle game by remote control using infrared rays.
[0018]
First, the outline of the remote control tank will be briefly described with reference to FIGS. The remote control tank includes a vehicle part A configured by covering a chassis 10 with a cabinet 20 and a turret part B attached on the vehicle part A.
[0019]
The chassis 10 of the vehicle part A is a ship-shaped resin formed body. On both sides of the chassis 10, a pair of drive wheels 11 a, 11 a is attached at the rearmost part. A plurality of large-diameter driven wheels 11c are provided between the rearmost drive wheel 11a and the frontmost driven wheel 11b, and a rubber endless belt 12 is wound around these. The endless belts 12 and 12 on both sides are driven to rotate independently by transmitting the rotation of a pair of motors 13 mounted in the rear part of the chassis 10 to the driving wheels 11a on each side via gears.
[0020]
In the chassis 10, a main board 15 is horizontally fixed from the front part to the center part of the bottom plate part 14. Various other electrical / electronic components are mounted on the surface of the main board 15 together with the slide switch 16 as a power switch, and various electrical / electronic components are also mounted on the back surface. The slide switch 16 is operated on the back side of the chassis 10 by the key top 17. On the rear surface of the chassis 10, charging terminal portions 18 and 18 are provided on both sides of the bottom plate portion 14. The terminal portions 18 and 18 are electrically connected to the main board 15 in the chassis 10, and the battery mounted in the chassis 10 is charged via the main board 16 by being connected to a charger (not shown). To do.
[0021]
The cabinet 20 is a resin cover with an open bottom surface that covers the chassis 10, and is connected and fixed to the chassis 10 with screws 22. A central portion of the cabinet 20 is a substantially horizontal top plate portion 21. The top plate portion 21 is provided with a vertical shaft portion 23 protruding upward for connection with a turret portion B described later.
[0022]
The turret portion B includes a lower case 30, an upper case 40 that covers the lower case 30, and a gun barrel 50 that is attached to the front portion so as to be sandwiched between both cases.
[0023]
A vertical through hole into which the shaft portion 23 is inserted is provided at the center of the lower case 30, and an annular portion 32 is provided concentrically so as to surround the cylindrical portion 31 around the through hole. The annular portion 32 is a rotation base portion, and the inner peripheral surface of the rear half of the annular portion 32 is an internal gear 33. Then, the tubular portion 31 is externally fitted to the shaft portion 23, and the resin washer 24 is fixed to the upper end surface of the shaft portion 23 with the screw 25, whereby the tubular portion 31 is fixed in the axial direction, and the lower case 30 is While being rotatably connected to the cabinet 20, a predetermined rotational resistance force is applied to the lower case 30.
[0024]
On the other hand, the upper case 40 is provided with an infrared light receiving unit 41 for remote operation, and a light receiving sensor is disposed in the back thereof.
[0025]
In the front part of the turret part B, an infrared light emitting part 51 is provided on the side of the gun barrel 50. The infrared light emitting unit 51 is located between the lower case 30 and the upper case 40, and an infrared lamp is disposed in the back thereof. The infrared emitting lamp is a bombardment operation unit that operates in response to the bombardment operation, and is mounted on the sub-board 34 on the lower case 30 together with a light receiving sensor disposed behind the infrared light receiving unit 41. The sub board 34 and the main board 15 in the chassis 10 are electrically connected by lead wires.
[0026]
The operation of the remote control tank will be briefly described. When a controller (not shown) is operated, an infrared signal corresponding to the operation is transmitted from the controller. When this signal is received by the infrared light receiving section 41 of the turret section B, the remote control tank executes an operation corresponding to the signal. Specifically, the endless belts 12 and 12 on both sides are independently driven to move forward, backward, and change direction, and the infrared light emitting unit 51 is operated in response to the bombardment operation. By such an operation, the opponent's remote control tank is tracked and fired.
[0027]
When the opponent's remote control tank is fired, the infrared light emitted from the infrared light emitting unit 51 is received by the infrared light receiving unit 41. The remote control tank that received the bombardment continues to turn, for example, at a fixed position as an operation assuming damage caused by the bombardment.
[0028]
Thus, a battle game using a tank is performed. The turret portion B is manually turned. A turret turning motor is mounted on the vehicle portion A, and a spur gear meshing with an internal gear 33 provided on the inner peripheral surface of the rear half of the annular portion 32 of the lower case 30 is provided. By driving with a motor, the turning operation of the turret B can also be performed remotely.
[0029]
The above is the outline of the remote control tank using the thin slide switch mechanism according to the embodiment of the present invention. The thin slide switch mechanism incorporated in the remote control tank will be described below in detail with reference to FIGS.
[0030]
The thin slide switch mechanism according to the embodiment of the present invention includes a slide switch 16 mounted on the surface of the main board 15 in the chassis 10, and the slide switch 16 for operating the slide switch 16 from the back side of the chassis 10. The key top 17 is combined.
[0031]
The slide switch 16 includes a rectangular parallelepiped body 16a and an operation portion 16b protruding from the surface of the body 16a. The body 16 a is mounted on the front surface of the main board 15 along the side edge so that the operation direction of the operation part 16 b is along the side edge of the main board 15. More specifically, a notch 15a along the side edge is provided at the front portion of the main substrate 15, and the front surface of the main substrate 15 is arranged so that the inner surface of the notch 15a and the outer surface of the body 16a are substantially flush with each other. The body 16a is mounted on the part surface. The operation unit 16b is slidable in the longitudinal direction of the body 16a (direction parallel to the side edge of the main board 15), and the power of the remote control tank is turned on / off by the slide operation.
[0032]
The key top 17 to be combined with the slide switch 16 is a substantially U-shaped resin molded body that sandwiches the body 16b of the slide switch 16 from the front and back together with the main substrate 15 therebelow. More specifically, the slide switch 16 A vertical connecting portion 17a disposed on the side of the body 16b, a surface-side protruding portion 17b protruding from the end of the connecting portion 17a on the substrate surface side inward along the surface of the body 16b, and a connecting portion 17a And a protruding portion 17c on the back surface side that protrudes inward from the end portion on the back surface side of the substrate along the back surface of the main substrate 15.
[0033]
The connecting portion 17a of the key top 17 is fitted into a notch 15a provided along the side edge at the front portion of the main board 15, and between the outer surface of the body 16a and the inner surface of the side plate portion of the chassis 10, It is configured to be guided by both side surfaces and slide in the longitudinal direction of the body 16a (operation direction of the operation portion 16b).
[0034]
The overhanging portion 17b on the front surface protrudes to a length that makes contact with the surface of the body 16a of the slide switch 16 over almost the entire width, and a notch opened on the back surface side so that the operation portion 16b is fitted to the front end surface. A concave portion 17d is provided. A stopper 17e is projected from the upper surface of the outer portion of the overhang portion 17b.
[0035]
The projecting portion 17c on the back surface side is a thin flat plate that is inserted into a minute gap between the bottom plate portion 14 of the chassis 10 and the main substrate 15 thereon, and the surface of the bottom plate portion 14 and the back surface of the main substrate 15 And is slid in the longitudinal direction of the body 16a (operation direction of the operation portion 16b). The projecting portion 17c projects to substantially the same length as the projecting portion 17b on the front surface side, and on the rear surface thereof, a rectangular bar-shaped operation portion 17f that protrudes from the position substantially corresponding to the operation portion 16b of the slide switch 16 to the rear surface side. Is provided. And the operation part 17f protrudes to the back surface side through the long hole 14a (refer FIG. 4) provided in the baseplate part 14 of the chassis 10. As shown in FIG. The long hole 14a is a square hole extended in the operation direction of the operation unit 16b in order to operate the operation unit 17f in the same direction as the operation unit 16b of the slide switch 16.
[0036]
The function of the thin slide switch mechanism configured as described above is as follows.
[0037]
The slide switch 16 is mounted on the surface of the main board 15 upward as usual. The gap between the bottom plate portion 14 of the chassis 10 and the main board 15 is designed to be as narrow as possible in order to reduce the thickness. Specifically, the gap is designed to accommodate the electrical / electronic components mounted on the back surface of the main board 15. Designed.
[0038]
The key top 17 to be combined with the slide switch 16 has a protruding portion 17c on the back side inserted between the bottom plate portion 14 of the chassis 10 and the main substrate 15 inserted into the gap between the bottom plate portion 14 of the chassis 10 and the main substrate 15. It is designed to be a thin plate that does not cause this gap to increase. Therefore, the conventional thinness and height are maintained.
[0039]
In the key top 17, the operation portion 17 f projects to the back side through a long hole 14 a provided in the bottom plate portion 14 of the chassis 10, and the operation portion 17 f is slid in the operation direction of the slide switch 16. As a result, the operating force is transmitted to the operating portion 16 b of the slide switch 16 via the key top 17. As a result, the slide switch 16 mounted on the front surface of the main board 15 is slid from the rear surface side of the chassis 10.
[0040]
Here, the key top 17 has front and back projecting portions 17b and 17c sandwiching the body 16b of the slide switch 16 from the front and back together with the main substrate 15 thereunder, and is guided by the front surface of the body 16b and the back surface of the main substrate 15. In addition, the overhanging portion 17c on the back surface side is sandwiched between the back surface and the surface of the bottom plate portion 14 as well as the back surface of the main substrate 15, and is guided by both surfaces. The connecting portion 17a connecting the 17c is guided not only on the outer side surface of the body 16b but also between the outer side surface and the inner surface of the side plate portion of the chassis 10 and on both side surfaces. Furthermore, the slide switch 16 is mounted on the surface of the side edge portion of the main board 15, and the overhang lengths of the overhang portions 17b and 17c are minimized.
[0041]
For this reason, there is very little rattling when operating the key top 17, and the operation part 16b of the slide switch 16 is slid by the key top 17 with high responsiveness.
[0042]
The key top 17 also has a notch-like recess 17d into which the operation portion 16b of the slide switch 16 is inserted at the front end surface of the overhang portion 17b on the front surface side, so that the slide switch mounted on the main board 15 It is combined with the slide switch 16 simply by fitting into the side 16. For this reason, the assembling work to the slide switch 16 is also easy.
[0043]
In the above embodiment, the present invention is applied to a power switch in a remote control tank for a battle game. However, the application is not limited, and the invention can be widely applied to other self-propelled toys.
[0044]
【The invention's effect】
As described above, the thin slide switch mechanism according to the present invention is a slide operation in which the slide switch is sandwiched from the front and back with the overhanging portion connected to the front and back by the connecting portion and protrudes to the backside of the substrate on the backside overhanging portion. Responsiveness of the slide switch mounted on the board surface from the back side of the board opposite to the switch mounting surface by combining a U-shaped or C-shaped key top provided with a section with the slide switch. Can operate well. Further, it is not necessary to increase the space formed on the back side of the substrate, and an increase in apparatus thickness or apparatus height can be avoided.
[Brief description of the drawings]
FIG. 1 is a perspective view of a remote control tank using a thin slide switch mechanism according to an embodiment of the present invention.
FIG. 2 is another perspective view of the remote control tank.
FIG. 3 is still another perspective view of the remote control tank.
FIG. 4 is still another perspective view of the remote control tank.
FIG. 5 is a vertical side view of the remote control tank.
FIG. 6 is a perspective view of a thin slide switch mechanism used in the remote control tank.
FIG. 7 is another perspective view of the thin slide switch mechanism.
FIG. 8 is a vertical side view of the thin slide switch mechanism.
FIG. 9 shows a state in which the key top is removed in another vertical side view of the thin slide switch mechanism.
[Explanation of symbols]
A Vehicle part B Turret part 10 Chassis 11a Driving wheel 11b, 11c Driven wheel 12 Endless belt 13 Motor 14 Chassis 10 Bottom plate part 15 Main board 16 Slide switch 16a Body 16b Operation part 17 Key top 17a Connecting part 17b, 17c Overhang part 17f Operation part 18 Terminal part 19 Battery 20 Cabinet 21 Top plate part 22 Screw 23 Shaft part 24 Resin washer 25 Screw 30 Lower case 31 Cylindrical part 32 Annular part 33 Internal gear 40 Upper case 41 Infrared light receiving part 50 Gun barrel 51 Light emitting part

Claims (4)

A slide switch mounted on the edge of the surface of the board so that the operation part protrudes so as to be slidable from the front surface and the operation part faces upward, and the operation part of the slide switch is slid on the back side of the board In a thin slide switch mechanism with a key top for enabling operation,
The key top is a substantially U-shaped or substantially C-shaped component that is disposed on the side of the slide switch so as to be movable in the same direction as the operation direction, and projects along the surface of the slide switch. It has an overhang portion on the front surface side that engages with the operation portion of the slide switch, and an overhang portion on the back surface side that protrudes along the back surface of the substrate. The overhang portions on the front surface side and the back surface side are formed on the substrate and the slide switch. A thin slide switch mechanism characterized by sandwiching the The thin slide switch mechanism according to claim 1 , wherein a concave portion into which an operation portion of the slide switch is fitted is provided at a distal end surface of the protruding portion on the surface side of the key top. The board has a chassis mounted with a gap, and the protruding part on the back side of the key top is a plate that is guided movably between the board and the chassis, 2. The thin slide switch mechanism according to claim 1, further comprising an operation portion that penetrates through the chassis and protrudes on the back surface side so as to be slidable. The key top has a configuration in which a connecting portion that connects a protruding portion on the front surface side and a protruding portion on the back surface side is guided movably between the inner side surface of the chassis, the side surface of the slide switch, and the side end surface of the substrate. The thin slide switch mechanism according to claim 3, wherein the thin slide switch mechanism is provided.

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